STUDIES OF MEIOSIS IN LUZULA PURPUREA

Abstract

In Luzula purpurea, which has diffuse centromeres and only six chromosomes, a study was made of the separation of chromatids during the first meiotic division, the pairing of the free chromitids at interkinesis, and the chromosomes of first mitosis of the pollen tetrads. Two strains were used, the normal type of L. purpurea with 2n = 6, and certain plants selected among the x- irradiated survivors. The normal plants had six somatic chromosomes of equal size that could not be distinguished from each other. The x-irradiated plants originated from material treated with 2500 or 1000 r as seedlings. Mitotic chromosome patterns were examined in progenies of the treated plants. Several of the irradiated plants were found to have 2n = 7 with five normal-sized chromosomes and one chromosome fragmented into two pieces of about equal size. Pairing of chromosomes during meiosis in these irradiated plants was compared with that in the normal L. purpurea with 2n = 6, and the distribution of large and small chromosomes between the four cells of the pollen tetrads was examined. Five of the original six chromosomes were unaffected by the x-ray treatment. A study of meiosis verified the postulated type of fragmentation of themore » 6th one. One heteromorphic association is formed in each cell of meiosis, originating from the pairing between the two fragments and their homologous unbroken partner. The association is open at metaphase and separates equationally during first anaphase. In the tetrad the two fragments regularly substitute the broken chromosome. The plants behave cytologically in the same way as the hybrids between diploid strains and naturally occurring endonuclear polyploids with half-sized chromosomes. In the next generation plants homozygote for the fragmented chromosome were found, showing a regular meiosis with two large and two small bivalents. The origin of the single fragmented chromosome in the irradiated material is difficult to explain; however, it was found earlier that chromosomes broken by x rays may persist as fragments in L. purpurea. It is noteworthy that the result of the fragmentation corresponds to the naturally occurring changes of chromosome pattern found in the genus Luzula. The pairing behavior of the chromosomes during meiosis in the heterozygote is the same as the one described for corresponding hybrids of L. campestris as well as the distribution of the large and the small chromosomes between the tetrad cells, where two half-sized chromosomes always substitute one large one. In such a case the progeny plants, homozygous for the fragmented chromosome, can give rise to a population which may be considered as an artificially produced endonuclear aneuploid strain, similar to the ones naturally found in the genus Luzula. (BBB)« less